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Journal Abstract Search

255 related items for PubMed ID: 28752605

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  • 2. The diversity of the N2O reducers matters for the N2O:N2 denitrification end-product ratio across an annual and a perennial cropping system.
    Domeignoz-Horta LA, Spor A, Bru D, Breuil MC, Bizouard F, Léonard J, Philippot L.
    Front Microbiol; 2015; 6():971. PubMed ID: 26441904
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  • 3. Beyond denitrification: The role of microbial diversity in controlling nitrous oxide reduction and soil nitrous oxide emissions.
    Shan J, Sanford RA, Chee-Sanford J, Ooi SK, Löffler FE, Konstantinidis KT, Yang WH.
    Glob Chang Biol; 2021 Jun; 27(12):2669-2683. PubMed ID: 33547715
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  • 5. Mitigation of nitrous oxide emissions from acidic soils by Bacillus amyloliquefaciens, a plant growth-promoting bacterium.
    Wu S, Zhuang G, Bai Z, Cen Y, Xu S, Sun H, Han X, Zhuang X.
    Glob Chang Biol; 2018 Jun; 24(6):2352-2365. PubMed ID: 29251817
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  • 6. Organic fertilization reduces nitrous oxide emission by altering nitrogen cycling microbial guilds favouring complete denitrification at soil aggregate scale.
    Tang Q, Moeskjær S, Cotton A, Dai W, Wang X, Yan X, Daniell TJ.
    Sci Total Environ; 2024 Oct 10; 946():174178. PubMed ID: 38917905
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  • 7. Organic fertility inputs synergistically increase denitrification-derived nitrous oxide emissions in agroecosystems.
    Saha D, Kaye JP, Bhowmik A, Bruns MA, Wallace JM, Kemanian AR.
    Ecol Appl; 2021 Oct 10; 31(7):e02403. PubMed ID: 34231260
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  • 8. Nitrous oxide production by ammonia oxidizers: Physiological diversity, niche differentiation and potential mitigation strategies.
    Prosser JI, Hink L, Gubry-Rangin C, Nicol GW.
    Glob Chang Biol; 2020 Jan 10; 26(1):103-118. PubMed ID: 31638306
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  • 9. In situ 15 N-N2 O site preference and O2 concentration dynamics disclose the complexity of N2 O production processes in agricultural soil.
    Wei H, Song X, Liu Y, Wang R, Zheng X, Butterbach-Bahl K, Venterea RT, Wu D, Ju X.
    Glob Chang Biol; 2023 Sep 10; 29(17):4910-4923. PubMed ID: 37183810
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  • 14. Expression of denitrification genes in response to a waterlogging event in a Fluvisol and its relationship with large nitrous oxide pulses.
    Uchida Y, Wang Y, Akiyama H, Nakajima Y, Hayatsu M.
    FEMS Microbiol Ecol; 2014 May 10; 88(2):407-23. PubMed ID: 24592962
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  • 15. Reduction of N2O emission by biochar and/or 3,4-dimethylpyrazole phosphate (DMPP) is closely linked to soil ammonia oxidizing bacteria and nosZI-N2O reducer populations.
    Chen H, Yin C, Fan X, Ye M, Peng H, Li T, Zhao Y, Wakelin SA, Chu G, Liang Y.
    Sci Total Environ; 2019 Dec 01; 694():133658. PubMed ID: 31398644
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  • 16. Stimulation of ammonia oxidizer and denitrifier abundances by nitrogen loading: Poor predictability for increased soil N2 O emission.
    Zhang Y, Zhang F, Abalos D, Luo Y, Hui D, Hungate BA, García-Palacios P, Kuzyakov Y, Olesen JE, Jørgensen U, Chen J.
    Glob Chang Biol; 2022 Mar 01; 28(6):2158-2168. PubMed ID: 34923712
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  • 17. Gross nitrous oxide production drives net nitrous oxide fluxes across a salt marsh landscape.
    Yang WH, Silver WL.
    Glob Chang Biol; 2016 Jun 01; 22(6):2228-37. PubMed ID: 26718748
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  • 18. Using isotope pool dilution to understand how organic carbon additions affect N2 O consumption in diverse soils.
    Stuchiner ER, von Fischer JC.
    Glob Chang Biol; 2022 Jul 01; 28(13):4163-4179. PubMed ID: 35377524
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  • 19. Nitrous Oxide Emissions from Ephemeral Wetland Soils are Correlated with Microbial Community Composition.
    Ma WK, Farrell RE, Siciliano SD.
    Front Microbiol; 2011 Jul 01; 2():110. PubMed ID: 21712943
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  • 20. Soil biochar amendment shapes the composition of N2O-reducing microbial communities.
    Harter J, Weigold P, El-Hadidi M, Huson DH, Kappler A, Behrens S.
    Sci Total Environ; 2016 Aug 15; 562():379-390. PubMed ID: 27100017
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